OGS
ThermalTwoPhaseFlowWithPPProcess.cpp
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1// SPDX-FileCopyrightText: Copyright (c) OpenGeoSys Community (opengeosys.org)
2// SPDX-License-Identifier: BSD-3-Clause
3
4#include "ThermalTwoPhaseFlowWithPPProcess.h"
5
6#include <cassert>
7
8#include "MathLib/InterpolationAlgorithms/PiecewiseLinearInterpolation.h"
9#include "MeshLib/PropertyVector.h"
10#include "ProcessLib/Utils/CreateLocalAssemblers.h"
11#include "ThermalTwoPhaseFlowWithPPLocalAssembler.h"
12
13namespace ProcessLib
14{
15namespace ThermalTwoPhaseFlowWithPP
16{
17ThermalTwoPhaseFlowWithPPProcess::ThermalTwoPhaseFlowWithPPProcess(
18 std::string name,
19 MeshLib::Mesh& mesh,
20 std::unique_ptr<AbstractJacobianAssembler>&& jacobian_assembler,
21 std::vector<std::unique_ptr<ParameterLib::ParameterBase>> const& parameters,
22 unsigned const integration_order,
23 std::vector<std::vector<std::reference_wrapper<ProcessVariable>>>&&
24 process_variables,
25 ThermalTwoPhaseFlowWithPPProcessData&& process_data,
26 SecondaryVariableCollection&& secondary_variables)
27 : Process(std::move(name), mesh, std::move(jacobian_assembler), parameters,
28 integration_order, std::move(process_variables),
29 std::move(secondary_variables)),
30 _process_data(std::move(process_data))
31{
32 DBUG("Create Nonisothermal TwoPhase Flow Process model.");
33
34 // For numerical Jacobian
35 this->_jacobian_assembler->setNonDeformationComponentIDs(
36 {0, 1, 2, 3} /* P_g, P_c, X, T */);
37}
38
39void ThermalTwoPhaseFlowWithPPProcess::initializeConcreteProcess(
40 NumLib::LocalToGlobalIndexMap const& dof_table,
41 MeshLib::Mesh const& mesh,
42 unsigned const integration_order)
43{
44 ProcessLib::createLocalAssemblers<ThermalTwoPhaseFlowWithPPLocalAssembler>(
45 mesh.getDimension(), mesh.getElements(), dof_table, _local_assemblers,
46 NumLib::IntegrationOrder{integration_order}, mesh.isAxiallySymmetric(),
47 _process_data);
48
49 _secondary_variables.addSecondaryVariable(
50 "saturation",
51 makeExtrapolator(1, getExtrapolator(), _local_assemblers,
52 &ThermalTwoPhaseFlowWithPPLocalAssemblerInterface::
53 getIntPtSaturation));
54
55 _secondary_variables.addSecondaryVariable(
56 "pressure_wetting",
57 makeExtrapolator(1, getExtrapolator(), _local_assemblers,
58 &ThermalTwoPhaseFlowWithPPLocalAssemblerInterface::
59 getIntPtWettingPressure));
60
61 _secondary_variables.addSecondaryVariable(
62 "liquid_molar_fraction_contaminant",
63 makeExtrapolator(1, getExtrapolator(), _local_assemblers,
64 &ThermalTwoPhaseFlowWithPPLocalAssemblerInterface::
65 getIntPtLiquidMolFracContaminant));
66
67 _secondary_variables.addSecondaryVariable(
68 "gas_molar_fraction_water",
69 makeExtrapolator(1, getExtrapolator(), _local_assemblers,
70 &ThermalTwoPhaseFlowWithPPLocalAssemblerInterface::
71 getIntPtGasMolFracWater));
72
73 _secondary_variables.addSecondaryVariable(
74 "gas_molar_fraction_contaminant",
75 makeExtrapolator(1, getExtrapolator(), _local_assemblers,
76 &ThermalTwoPhaseFlowWithPPLocalAssemblerInterface::
77 getIntPtGasMolFracContaminant));
78}
79
80void ThermalTwoPhaseFlowWithPPProcess::assembleConcreteProcess(
81 const double t, double const dt, std::vector<GlobalVector*> const& x,
82 std::vector<GlobalVector*> const& x_prev, int const process_id,
83 GlobalMatrix& M, GlobalMatrix& K, GlobalVector& b)
84{
85 DBUG("Assemble ThermalTwoPhaseFlowWithPPProcess.");
86
87 std::vector<NumLib::LocalToGlobalIndexMap const*> dof_table = {
88 _local_to_global_index_map.get()};
89
90 // Call global assembler for each local assembly item.
91 GlobalExecutor::executeSelectedMemberDereferenced(
92 _global_assembler, &VectorMatrixAssembler::assemble, _local_assemblers,
93 getActiveElementIDs(), dof_table, t, dt, x, x_prev, process_id, &M, &K,
94 &b);
95
96 _global_output(t, process_id, M, K, b);
97}
98
99void ThermalTwoPhaseFlowWithPPProcess::assembleWithJacobianConcreteProcess(
100 const double t, double const dt, std::vector<GlobalVector*> const& x,
101 std::vector<GlobalVector*> const& x_prev, int const process_id,
102 GlobalVector& b, GlobalMatrix& Jac)
103{
104 DBUG("AssembleWithJacobian ThermalTwoPhaseFlowWithPPProcess.");
105
106 std::vector<NumLib::LocalToGlobalIndexMap const*> dof_table = {
107 _local_to_global_index_map.get()};
108
109 // Call global assembler for each local assembly item.
110 GlobalExecutor::executeSelectedMemberDereferenced(
111 _global_assembler, &VectorMatrixAssembler::assembleWithJacobian,
112 _local_assemblers, getActiveElementIDs(), dof_table, t, dt, x, x_prev,
113 process_id, &b, &Jac);
114
115 _global_output(t, process_id, b, Jac);
116}
117
118void ThermalTwoPhaseFlowWithPPProcess::preTimestepConcreteProcess(
119 std::vector<GlobalVector*> const& x, double const t, double const delta_t,
120 const int process_id)
121{
122 DBUG("PreTimestep ThermalTwoPhaseFlowWithPPProcess.");
123
124 GlobalExecutor::executeSelectedMemberOnDereferenced(
125 &LocalAssemblerInterface::preTimestep, _local_assemblers,
126 getActiveElementIDs(), *_local_to_global_index_map, *x[process_id], t,
127 delta_t);
128}
129
130} // namespace ThermalTwoPhaseFlowWithPP
131} // namespace ProcessLib
GlobalMatrix
MathLib::EigenMatrix GlobalMatrix
Definition GlobalMatrixVectorTypes.h:17
GlobalVector
MathLib::EigenVector GlobalVector
Definition GlobalMatrixVectorTypes.h:16
DBUG
void DBUG(fmt::format_string< Args... > fmt, Args &&... args)
Definition Logging.h:22
MeshLib::Mesh::isAxiallySymmetric
bool isAxiallySymmetric() const
Definition Mesh.h:128
MeshLib::Mesh::getElements
std::vector< Element * > const & getElements() const
Get the element-vector for the mesh.
Definition Mesh.h:100
MeshLib::Mesh::getDimension
unsigned getDimension() const
Returns the dimension of the mesh (determined by the maximum dimension over all elements).
Definition Mesh.h:79
ProcessLib::LocalAssemblerInterface::preTimestep
virtual void preTimestep(std::size_t const mesh_item_id, NumLib::LocalToGlobalIndexMap const &dof_table, GlobalVector const &x, double const t, double const delta_t)
Definition LocalAssemblerInterface.cpp:95
ProcessLib::Process::name
std::string const name
Definition Process.h:361
ProcessLib::Process::Process
Process(std::string name_, MeshLib::Mesh &mesh, std::unique_ptr< AbstractJacobianAssembler > &&jacobian_assembler, std::vector< std::unique_ptr< ParameterLib::ParameterBase > > const &parameters, unsigned const integration_order, std::vector< std::vector< std::reference_wrapper< ProcessVariable > > > &&process_variables, SecondaryVariableCollection &&secondary_variables, const bool use_monolithic_scheme=true)
Definition Process.cpp:37
ProcessLib::Process::getActiveElementIDs
std::vector< std::size_t > const & getActiveElementIDs() const
Definition Process.h:160
ProcessLib::Process::_secondary_variables
SecondaryVariableCollection _secondary_variables
Definition Process.h:369
ProcessLib::Process::_global_assembler
VectorMatrixAssembler _global_assembler
Definition Process.h:376
ProcessLib::Process::_local_to_global_index_map
std::unique_ptr< NumLib::LocalToGlobalIndexMap > _local_to_global_index_map
Definition Process.h:367
ProcessLib::Process::_jacobian_assembler
std::unique_ptr< ProcessLib::AbstractJacobianAssembler > _jacobian_assembler
Definition Process.h:375
ProcessLib::Process::getExtrapolator
NumLib::Extrapolator & getExtrapolator() const
Definition Process.h:201
ProcessLib::SecondaryVariableCollection
Handles configuration of several secondary variables from the project file.
Definition SecondaryVariable.h:108
ProcessLib::ThermalTwoPhaseFlowWithPP::ThermalTwoPhaseFlowWithPPProcess::_local_assemblers
std::vector< std::unique_ptr< ThermalTwoPhaseFlowWithPPLocalAssemblerInterface > > _local_assemblers
Definition ThermalTwoPhaseFlowWithPPProcess.h:77
ProcessLib::ThermalTwoPhaseFlowWithPP::ThermalTwoPhaseFlowWithPPProcess::initializeConcreteProcess
void initializeConcreteProcess(NumLib::LocalToGlobalIndexMap const &dof_table, MeshLib::Mesh const &mesh, unsigned const integration_order) override
Process specific initialization called by initialize().
Definition ThermalTwoPhaseFlowWithPPProcess.cpp:39
ProcessLib::ThermalTwoPhaseFlowWithPP::ThermalTwoPhaseFlowWithPPProcess::assembleWithJacobianConcreteProcess
void assembleWithJacobianConcreteProcess(const double t, double const dt, std::vector< GlobalVector * > const &x, std::vector< GlobalVector * > const &x_prev, int const process_id, GlobalVector &b, GlobalMatrix &Jac) override
Definition ThermalTwoPhaseFlowWithPPProcess.cpp:99
ProcessLib::ThermalTwoPhaseFlowWithPP::ThermalTwoPhaseFlowWithPPProcess::preTimestepConcreteProcess
void preTimestepConcreteProcess(std::vector< GlobalVector * > const &x, const double t, const double delta_t, const int process_id) override
Definition ThermalTwoPhaseFlowWithPPProcess.cpp:118
ProcessLib::ThermalTwoPhaseFlowWithPP::ThermalTwoPhaseFlowWithPPProcess::ThermalTwoPhaseFlowWithPPProcess
ThermalTwoPhaseFlowWithPPProcess(std::string name, MeshLib::Mesh &mesh, std::unique_ptr< AbstractJacobianAssembler > &&jacobian_assembler, std::vector< std::unique_ptr< ParameterLib::ParameterBase > > const &parameters, unsigned const integration_order, std::vector< std::vector< std::reference_wrapper< ProcessVariable > > > &&process_variables, ThermalTwoPhaseFlowWithPPProcessData &&process_data, SecondaryVariableCollection &&secondary_variables)
Definition ThermalTwoPhaseFlowWithPPProcess.cpp:17
ProcessLib::ThermalTwoPhaseFlowWithPP::ThermalTwoPhaseFlowWithPPProcess::assembleConcreteProcess
void assembleConcreteProcess(const double t, double const dt, std::vector< GlobalVector * > const &x, std::vector< GlobalVector * > const &x_prev, int const process_id, GlobalMatrix &M, GlobalMatrix &K, GlobalVector &b) override
Definition ThermalTwoPhaseFlowWithPPProcess.cpp:80
ProcessLib::VectorMatrixAssembler::assemble
void assemble(std::size_t const mesh_item_id, LocalAssemblerInterface &local_assembler, std::vector< NumLib::LocalToGlobalIndexMap const * > const &dof_tables, double const t, double const dt, std::vector< GlobalVector * > const &x, std::vector< GlobalVector * > const &x_prev, int const process_id, GlobalMatrix *M, GlobalMatrix *K, GlobalVector *b)
Definition VectorMatrixAssembler.cpp:32
ProcessLib::VectorMatrixAssembler::assembleWithJacobian
void assembleWithJacobian(std::size_t const mesh_item_id, LocalAssemblerInterface &local_assembler, std::vector< NumLib::LocalToGlobalIndexMap const * > const &dof_tables, const double t, double const dt, std::vector< GlobalVector * > const &x, std::vector< GlobalVector * > const &x_prev, int const process_id, GlobalVector *b, GlobalMatrix *Jac)
Definition VectorMatrixAssembler.cpp:99
ProcessLib::createLocalAssemblers
void createLocalAssemblers(std::vector< MeshLib::Element * > const &mesh_elements, NumLib::LocalToGlobalIndexMap const &dof_table, std::vector< std::unique_ptr< LocalAssemblerInterface > > &local_assemblers, ProviderOrOrder const &provider_or_order, ExtraCtorArgs &&... extra_ctor_args)
Definition Utils/CreateLocalAssemblers.h:21
ProcessLib::makeExtrapolator
SecondaryVariableFunctions makeExtrapolator(const unsigned num_components, NumLib::Extrapolator &extrapolator, LocalAssemblerCollection const &local_assemblers, typename NumLib::ExtrapolatableLocalAssemblerCollection< LocalAssemblerCollection >::IntegrationPointValuesMethod integration_point_values_method)
Definition SecondaryVariable.h:157
NumLib::SerialExecutor::executeSelectedMemberOnDereferenced
static void executeSelectedMemberOnDereferenced(Method method, Container const &container, std::vector< std::size_t > const &active_container_ids, Args &&... args)
Definition SerialExecutor.h:143
NumLib::SerialExecutor::executeSelectedMemberDereferenced
static void executeSelectedMemberDereferenced(Object &object, Method method, Container const &container, std::vector< std::size_t > const &active_container_ids, Args &&... args)
Definition SerialExecutor.h:89